KR101086251B1 - Download device for setting parameters of wireless charging system and control method thereof - Google Patents

Abstract

The present invention relates to a download system, and more particularly, having a download system for parameter setting of a contactless charger, so as to easily transmit data signals of various parameters that can be applied to the charging operation, and to perform the charging operation in an optimal state. A download system for parameter setting of a contactless charger is provided.

The present invention for this purpose in the download system (A) is provided between the contactless charging power transmission apparatus 10 and the computer 100 is connected to the download device 30 for transmitting and receiving a signal, the download device 30 USB cable 33 is connected to the computer 100; A memory communication control module 32 for transmitting and receiving data to and from the memory unit 15 of the power transmission device 10; The computer 10, the power transmission device 10 and the memory unit 15 is characterized in that it is provided with a USB control module 31 for USB communication.

Solid State Charger, Parameters, Download, Power Transfer, Power Receive

Description

DOWNLOAD DEVICE FOR SETTING PARAMETERS OF WIRELESS CHARGING SYSTEM AND CONTROL METHOD THEREOF}

The present invention relates to a download system, and more particularly, to provide a parameter setting download device for a contactless charger, to easily transmit data signals of various parameters that can be applied to the charging operation, charging operation in an optimal state A download system for parameter setting of a contactless charger is provided.

In general, portable devices such as mobile phones, PDAs, PMPs, DMB terminals, GPS terminals, MP3 or laptops, and UMPCs cannot use ordinary home power sources, so they are equipped with disposable batteries or rechargeable batteries.

And a charger for charging electricity to the battery of such a portable device is a terminal supply method is used to supply power to the battery pack through the power supply terminal to receive electricity from the general power source. However, when the power is supplied by the terminal supply method, when the charger and the battery are coupled or separated from each other, the terminals on both sides have different potentials, and thus a momentary discharge phenomenon occurs. As a result, foreign materials gradually accumulate on both terminals, which may cause a fire. In addition, there is a problem that deteriorates the life and performance of the charger and battery, such as natural discharge due to moisture.

In order to solve this problem of the terminal supply method, a contactless charger has been developed. The contactless charger according to the prior art is located on the upper portion of the primary coil of the contactless charger, the terminal is embedded with the battery to be charged, it is charged by the secondary coil of the battery. That is, the secondary coil is charged with electricity induced by induced electromotive force by the magnetic field generated by the primary coil.

However, such a conventional contactless charger has a disadvantage in that it is not easy to set parameter values for charging operation. Thus, since one charger operates as a single specification, there is a problem that it is difficult to make the charging degree stable depending on the state of the supplied power, the state of the battery pack, and the state of the portable terminal.

The present invention for solving the above problems is provided with a parameter setting download system for a contactless charger, to easily transmit the data signal of various parameters that can be applied to the charging operation, so that the charging operation in the optimal state There is a purpose.

In particular, it is necessary to change the setting value of various parameters for the charging operation according to the state of the power supplied to the power transmitter, the contactless charger, the state of the power transmitter, the state of the power receiver, or to set the initial parameter value. It is an object of the present invention to facilitate data transfer of such set values to a memory unit.

Furthermore, even though the memory unit such as the EEPROM is provided with a contactless charger which is a power transmission device, even when the contactless charger does not operate and the driving power of the EEPROM is not supplied, the memory unit is connected to the computer through the USB communication line. Prior to transmitting the data signal for parameter setting, the driving power can be transmitted separately, so that the data can be transmitted regardless of the operation of the contactless charger.

A data download device for parameter setting for a contactless charger for achieving the above object is connected to a computer that stores data including data for transmission to the power transmission device and data for storage in the memory unit of the power transmission device. A USB cable configured to; A memory communication control module for transmitting data for storing in the memory unit of the power transmission device; And checking whether the data recognized from the USB cable is data to be stored in a memory unit of the power transmission device, and if the data is data to be stored in a memory unit of the power transmission device, controlling the memory communication control module. And transmit data to the memory unit of the power transmitter to the memory unit of the power transmitter.
According to an embodiment of the present invention, data for storing in the memory unit of the power transmission device may be data for parameter setting. Here, the parameter setting data may include at least one of a level value, a resonance frequency value, an LED and LCD state value, a temperature protection setting value, and an overcurrent setting value of the power transmitter and the power receiver.
According to an aspect of an embodiment of the present invention, the USB control module may drive a memory unit of the power transfer apparatus by using a power source from the computer.
According to an aspect of an embodiment of the present invention, the data setting device for parameter setting for a contactless charger may include a device communication control module for signal communication with the power transmission device and a switching frequency of the power transmission device. The apparatus further includes a pulse generator, and the USB control module controls the device communication control module and the pulse generator to transmit the data to the power transmission device if the data recognized from the USB cable is data to be transmitted to the power transmission device. Data to be transmitted may be transmitted to the power transmission device.
In another embodiment of the present invention, a control method of a parameter setting download apparatus for a contactless charger may include: receiving data transmitted from a computer via a USB cable under control of a USB control module; Determining whether the data received from the computer is data to be stored in a memory unit of the power transmitter or data to be transmitted to the power transmitter; And transmitting the determined data to the memory unit of the power transmission apparatus through a memory communication control module when the determined data is data to be stored in the memory unit.
According to an aspect of another embodiment of the present invention, the data for storing in the memory unit of the power transmission device may be parameter setting data. Here, the parameter setting data may include at least one of a level value, a resonance frequency value, an LED and LCD state value, a temperature protection setting value, and an overcurrent setting value of the power transmitter and the power receiver.
According to an aspect of another embodiment of the present invention, when the determined data is data to be stored in the memory unit, the step of transmitting it to the memory unit of the power transmission apparatus through a memory communication control module, the power transmission Determining whether operation power is supplied to said memory unit by operation of a device; And when it is determined that the operating power is not supplied to the memory unit, supplying power supplied from the computer to the memory unit through the USB cable.
According to an aspect of another embodiment of the present invention, the control method of the parameter setting download device of the contactless charger, if the data recognized from the USB cable is the data for transmission to the power transmission device, the device communication control module and The method may further include transmitting data to the power transmitter by controlling the pulse generator.

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The present invention provided as described above is provided with a parameter setting download system for a contactless charger, to easily transmit the data signal of various parameters that can be applied to the charging operation, the excellent effect of the charging operation in the optimal state has have.

In particular, depending on the state of the power supplied to the power transmitter, the contactless charger, the state of the power transmitter, and the state of the power receiver, the setting values of the various parameters for the charging operation may need to be changed or may be the EEPROM for the first time setting. There is an advantage that it is possible to easily transfer these settings to the memory unit.

Furthermore, even though the memory unit such as the EEPROM is provided with a contactless charger which is a power transmission device, even when the contactless charger does not operate and the driving power of the EEPROM is not supplied, the memory unit is connected to the computer through the USB communication line. Prior to transmitting the data signal for parameter setting, since the driving power can be transmitted separately, there is an advantage of enabling data transmission regardless of the operation of the contactless charger.

Hereinafter, described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a download system according to the present invention, FIG. 2 is a control flowchart of the download system according to the present invention, and FIG. 3 is a control flowchart for the download system according to the present invention.

That is, the parameter setting download system A of the contactless charger according to the present invention, as shown in Figs. 1 to 3, is connected between the contactless charging power transmitter 10 and the computer 100, the signal It relates to a download system (A) provided with a download device 30 for transmitting and receiving.

The computer 100 in the download system A according to the present invention may be applied to devices capable of USB communication, such as a desk computer, a notebook computer, a mobile phone, a PDA, a PMP, a DMB terminal, a GPS terminal, an MP3, a UMPC, and the like. will be.

In addition, the power transmission device 10 is provided such that an induction magnetic field is generated at the primary core 14, and the power is charged with the induced power generated through the secondary core 21 of the power receiving device 20 which is a portable device. It may be provided to be.

That is, the power transmission device 10 includes: a power supply module 12 for supplying power to the power transmission device 10 and supplying power such that an induction magnetic field is generated at the primary side core 14; A resonant converter 13 of a full bridge resonant converter connected to the primary side core 14 to generate an induction magnetic field of a power signal; The power supply module 12 and the transmission control unit 11 and the like for controlling the resonant converter 13 is provided, the power supply is provided to perform a power transfer operation through the primary side core (14). .

The transmission control unit 11 further includes a memory communication block 112 for data transmission and reception with the memory unit 15; A download communication block 113 for transmitting and receiving data with the download device 30; A pre-driver block (114) for driving the resonant converter (13) to generate an induction magnetic field in the primary side core (14) with respect to the power supplied from the power supply module (12); A transmission main controller 111 for controlling the memory unit 15 and the resonant converter 13 may be included.

Of course, the power transmission device 10 that performs the power transmission operation is provided with a communication module for ID communication with a control module embedded in the power reception device 20 which is a wireless device, and the resonant converter 13 has LC resonance. To generate an induction magnetic field through, it can be made of a FULL-BRIDGE resonant converter. In addition, in order to drive the resonant converter 13, a predriver may be built in the transmission control unit 11 and provided as a predriver block 114.

In addition, the memory unit 15, which may be provided as a memory such as an EEPROM, is used to store various parameters necessary for the operation of the power transmitter 10, and foreign matter may be transferred to the power receiver 20 or the primary side core 14. Signal value of pulse signal sent to determine proximity, current value and temperature setting value of primary core in power transmission, frequency setting for transmission of resonant converter, setting value of power receiver 20 and unique ID value Various parameter values that can be used throughout the operation of the power transmitter 10, such as a set value for the input power, are stored.

The setting of such a parameter value includes whether the power supply is a general power supply, a power supply from a vehicle such as a vehicle, a power supply via a USB line such as a computer, a power generation such as a generator, or a charging power supply of a charging device. According to this, the parameter value for each power supply status should be set selectively.

In addition, each parameter value may be selectively set according to the specifications of the power transmitter and the power receiver and the shape of each core.

In order to communicate with the memory unit 15, the transmission control unit 11 is provided with a memory communication block 112, such as an SPI controller, to process transmission and reception data signals.

In addition, a download communication block 113 may be provided to transmit and receive data signals to and from the download device 30.

In addition, when the power transmission device 10 has an error such as an abnormality of each line, an abnormality in current of a circuit or a primary core, a temperature abnormality, and the like, the LCD is a display device to display it under the control of the transmission control unit 11. 161, an LED 162, and the like may be provided, and an input / output port 115 may be provided to process a transmission signal with such a display device. Of course, such a display device may also display a charging operation state, a standby state, a full charge state of the power receiver 20, and the like.

In addition, a malfunction detection circuit may be further provided to detect an overcurrent state of the primary side core 14, a high temperature state due to overheating, an overcurrent or high temperature state of each line of the power transmission device 10, and the like. .

The malfunction detection circuit may transmit an abnormal signal when a predetermined overcurrent or a predetermined temperature is exceeded through a comparator of a built-in comparator, and a shot-down circuit may be provided to stop a corresponding line.

The computer 100 and the power transmission device 10 provided as described above may be provided to transmit and receive data signals through USB communication by using the download device 30 as an intermediary.

To this end, the download device 30, USB cable 33 is connected to the computer 100; A memory communication control module 32 for transmitting and receiving data to and from the memory unit 15 of the power transmission device 10; It may be provided as a USB control module 31 for USB communication with the computer 100, the power transmission apparatus 10 and the memory unit 15 side.

Of course, the computer 100 and the download device 30 may be signaled to and received from each other by using a serial port or the like. Thus, in the present invention, a data signal is transmitted and received using a USB communication line as an example.

Since the USB communication line is provided with a terminal for supplying and receiving data signals, and a terminal for supplying power, the USB communication line is connected to the computer 100 by a USB cable 33 which is a USB communication line. It can be driven without a separate power supply configuration.

Thus, data is transmitted and received from the computer 100 through the USB cable 33, and this data signal is to be directly transmitted to the power transmission apparatus 10 by the USB control module 31, or memory unit 15 which is an EEPROM. It is to determine whether or not it is a data signal for parameter setting to be stored.

Thus, in the case of a data signal for transmission to the memory unit 15, the data is transmitted to the memory unit 15 through the memory communication control module 32.

However, the memory unit 15, which is generally an EEPROM, needs power for driving, and the driving power is supplied through the power supply module 12 of the power transmission apparatus 10, but the power transmission apparatus 10 operates. If not, the driving power of the memory unit 15 will have to be supplied separately.

Since the download device 30 receives power from the computer 100 through the USB cable 33, such a supply power is selectively supplied to the memory unit 15 to be used as the driving power of the memory unit 15. It may be provided.

That is, the power signal is transmitted to the memory unit 15 under the control of the USB control module 31, and the memory unit 15 may be operated by the driving power supplied from the download device 30. will be. Of course, if the memory unit 15 is supplied with power from the power transmission device 10, the separate power supply will not be necessary, and thus the determination will be made.

Such determination may be provided to determine the state of the memory unit 15 before data transmission, or may determine whether power is supplied by determining whether the power transmission apparatus 10 is operated.

In this way, the power transmission device 10 is provided to transmit a signal for determining whether to operate or transmit the data signal transmitted from the computer 100 to the download communication block 113 of the power transmission device 10 side.

The download device 30 is provided with a device communication control module 36 for signal communication with the power transmission device 10, by the device communication control module 36 to control the USB control module 31. As a result, the data signal is transmitted to the power transmission apparatus 10. In addition, the pulse generator 34 for transmitting the pulse signal may be used to adjust the switching frequency of the contactless charger, which is the power transmission apparatus 10. Therefore, the pulse frequency signal generated by the pulse generator 34 is transmitted to the power transmission apparatus 10 by the download communication block 113 connected to the device communication control module 36, and thus the power transmission apparatus 10 It may be used as a switching frequency for induction magnetic field generation.

In the present invention provided as described above, a control method of the download apparatus 30 connected to the contactless charging power transmitter 10 and the computer 100 to transmit and receive signals is as follows.

First, the specifications of the power transmitter 10 and the power receiver 20 that can be applied to the download system A for parameter setting of the contactless charger will be predetermined, and the power transmitter 10 and the power receiver Classification of the set values of various parameters for the charging operation according to (20) will be determined. Therefore, the computer 100 may be driven by a parameter setting program in which the classification of the setting values of the respective parameters corresponding to the power transmitter 10 and the power receiver 20 is determined.

Thus, when the power transmission apparatus 10 and the download apparatus 30 are connected, and the download apparatus 30 and the computer 100 are connected, the operation of the power transmission apparatus 10 and the power receiving apparatus 20 is performed. The program for setting various parameters according to the above is executed, and preparation for downloading of parameter setting of the contactless charger should be completed.

Thereafter, a data receiving step (S01) of receiving a data signal transmitted from the computer 100 through the USB cable 33 under the control of the USB control module 31 is performed.

As described above, a data reception step for determining whether the data signal received from the computer 100 by the data reception step S01 is a data signal for storing in the memory unit 15 of the power transmission apparatus 10 ( S02) is performed, in the case of the data signal to be transmitted to the power transmission apparatus 10, the data transmitted through the device communication control module 36 and the download communication block 113 under the control of the USB control module 31. It will transmit a signal.

When the data signal received according to the reception data discrimination step S02 is a data signal for storing in the memory unit 15, the data signal is transmitted to the memory unit 15 through the memory communication control module 32. The data transmission step S03 is performed to be transmitted.

Thus, as in the data transfer step (S03), it is determined whether the operating power is applied to the memory unit 15 before transmitting the data signal to the memory unit 15.

That is, a memory unit state discrimination step S031 is performed to determine whether operation power is supplied to the memory unit 15 by the operation of the power transmitter 10. When the power transmitter 10 is operated to determine that the operating power is supplied to the memory unit 15, the data signal is transmitted to the memory unit 15, but the power transmitter 10 is not operated. If the operating power is not supplied to the memory unit 15, the operating power should be supplied from the download device 30 to the memory unit 15.

That is, when it is determined that the operating power is not supplied to the memory unit 15 by the memory unit state discrimination step S031, the power supplied from the computer 100 through the USB cable 33 is supplied to the memory unit. A power supply step S032 for supplying the power to the memory 15 is performed, and the data signal transmitted from the computer 100 is transmitted to the memory unit 15 while the operating power is supplied to the memory unit 15. The data signal transmission step S033 for storing the data signal is performed.

Therefore, in the charging operation of the power transmitter 10 and the power receiver 20 transmitted from the computer 100, the level value, the resonance frequency value, the LED and LCD state value, the temperature protection setting value, the overcurrent setting value, etc. The data signal for setting various parameters is transmitted to the memory unit 15, which may be provided in an EEPROM or the like.

Thus, the power transmission apparatus 10 loads data of setting values of each parameter stored in the memory unit 15 which may be provided as an EEPROM prior to driving each device, and performs charging operation according to the set parameter values. will be.

Therefore, the user can freely set the parameter values in the computer 100 according to the charging operation, which can be changed according to the state of the power transmission apparatus 10, the power receiving apparatus 20, the power supply state, and the like, and then download them ( Through the 30) to be stored in the memory unit 15 that can be an EEPROM, there is an advantage that can be provided to perform the charging operation in an optimal state.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art without departing from the spirit and scope of the invention described in the claims below In the present invention can be carried out by various modifications or variations.

1 is a schematic configuration diagram of a download system according to the present invention;

2 is a control flowchart of a download system according to the present invention;

3 is a control flowchart for a download system according to the present invention.

<Explanation of symbols for the main parts of the drawings>

A: Download System

10: power transmission apparatus 11: transmission control unit

12: power supply module 13: resonant converter

14: primary side core 15: memory

20: power receiver 21: secondary side core

30: download device 31: USB control module

32: memory communication control module

33: USB cable 34: Pulse generator

36: device communication control module

Claims (10)

A USB cable configured to connect with a computer storing data including data for transmission to a power transmission device and data for parameter setting which is data for storage in a memory unit of the power transmission device; A memory communication control module for transmitting the parameter setting data data; And It is confirmed whether the data recognized from the USB cable is the parameter setting data, and if the data is the parameter setting data, the memory communication control module is controlled to transmit the parameter setting data to the memory unit of the power transmission device. A data download device for parameter setting for a contactless charger, comprising a USB control module. delete The method of claim 1, The parameter setting data includes at least one of a level value, a resonant frequency value, an LED and LCD state value, a temperature protection setting value, and an overcurrent setting value of the power transmission device and the power receiving device. Data download device for setup. The method of claim 1, The USB control module, A data download device for parameter setting for a contactless charger, which drives a memory unit of the power transmission device by using power from the computer from the computer. The method of claim 1, A device communication control module for signal communication with the power transmission device and a pulse generator for adjusting a switching frequency of the power transmission device, The USB control module, If the data recognized from the USB cable is data to be transmitted to the power transmission device, the device communication control module and the pulse generator to control and transmit the data for transmission to the power transmission device, Data download device for parameter setting for contact chargers. Receiving data transmitted from a computer via a USB cable under the control of a USB control module; Determining whether the data received from the computer is data for parameter setting that is data to be stored in a memory unit of the power transmission device or data for transmission to the power transmission device; And And transmitting the determined data to the parameter setting data, through the memory communication control module, transmitting the data to the memory unit of the power transmission device. delete The method of claim 6, The parameter setting data includes at least one of a level value, a resonant frequency value, an LED and LCD state value, a temperature protection setting value, and an overcurrent setting value of the power transmission device and the power receiving device. Control method of setting download device. The method of claim 6, When the determined data is data to be stored in the memory unit, transmitting the data to the memory unit of the power transmission apparatus through a memory communication control module, Determining whether operation power is supplied to the memory unit by the operation of the power transmitter; And If it is determined that the operating power is not supplied to the memory unit, supplying the power supplied from the computer via the USB cable to the memory unit. Way. The method of claim 6, If the data recognized from the USB cable is data to be transmitted to the power transmission device, controlling the device communication control module and the pulse generator to transmit data to the power transmission device for transmission to the power transmission device. A control method of a download device for parameter setting of a contactless charger.

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